KR101834804B1 - lubricant application device for cable - Google Patents

Abstract

The present invention relates to a technology for coating a lubricant on the surface of a cable while the cable is installed to move along a lengthwise direction of the cable, and specifically, to a technology for automatically coating a lubricant on an external surface of a cable around a manhole when the cable is installed underground while the installed cable is moved underground through the manhole. According to the present invention, the lubricant can be stably coated on the external surface of the cable by adjusting discharge pressure of a discharge block through pumping pressure adjustment by a controller.

Description

[0001] The present invention relates to a lubricant application device for cable,

The present invention relates to a technique of applying a lubricant to a surface of a cable while a cable is installed and moving along its longitudinal direction. More particularly, the present invention relates to a technique for automatically applying a lubricant to an outer surface of a cable around a manhole while a cable is laid in the ground and the cable is moved through the manhole to the ground.

In general, when cables (eg wires) are installed in the ground without a pole, the cable is routed through a conduit pre-installed in the ground.

FIG. 1 is a view schematically showing an underground state in which a cable is installed. An underground channel 30 is formed to have a length of about 400 meters, and a first manhole 10 And the second manhole 20 are connected to each other and communicate with the ground. At this time, a plurality of strings are provided in advance inside the channel 30 from the time when the channel 30 is formed.

Here, in the state where the cable is rolled around the first manhole 10, an operator enters the first manhole 10 and ties the leading end of the cable to the string in the duct 30. [

Then, the worker enters the second manhole 20 and connects the string in the line 30 to the laying device located around the second manhole 20.

Then, when the laying device operates to pull the string in the duct 30, the cable entering the first manhole 10 is moved out of the second manhole 20 via the duct 30 along the strap to which it is connected.

However, the conduit 30 may be formed in a straight line, but may be bent several times. As a result, there may occur a case where the coating of the cable passing through the conduit 30 is scratched or the cable is not smoothly moving along the conduit 30.

In order to overcome such a conventional problem, there is a demand for an apparatus for automatically applying a lubricant to the outer surface of the cable when the cable is passed through the pipeline 30.

The cable entering the first manhole 10 is moved by the pulling force of the laying device around the second manhole 20, so that the cable is subjected to an external force that swings or twists.

Despite this external force, it is required to implement a device that smoothly applies a lubricant to the outer surface of the cable in the process of entering the cable into the manhole.

SUMMARY OF THE INVENTION The present invention has been made in view of the above points, and it is an object of the present invention to provide a cable lubricant applying device which can stably apply a lubricant to a cable installed in the ground by an external force.

It is also an object of the present invention to provide a cable lubricant applicator which can easily adjust the structure of the rolling means for guiding the cable in accordance with the diameter of the cable or the movement of the cable under installation.

In order to accomplish the above object, the present invention provides an apparatus for applying a lubricant to a surface of a cable while a cable is installed and moving along its longitudinal direction, the apparatus comprising: a base; A plurality of lower rotating rollers (120) mounted on an upper surface of the base to rotate in place and to support a lower portion of the cable being conveyed by an external force; A plurality of upper rotating rollers (130) arranged in an upper portion of the lower rotating roller and supporting an upper portion of the cable being transported while being rotated cooperatively with the lower rotating roller; A discharge block (140) disposed between the plurality of upper rotating rollers to drop the liquid lubricant in a downward direction; A rotary brush 150 for applying a liquid lubricant adhering to the outer surface of the discharge block to the surface of the cable under conveyance while being rotated in a state of being disposed at the vertical lower portion of the discharge block so that the lubricant dropped from the discharge block falls on the outer surface of the discharge block ).

At this time, the rotary brush 150 includes an upper brush 151 disposed between a plurality of upper rotating rollers for applying a liquid lubricant to the upper outer surface of the cable being engaged between the upper rotating roller and the lower rotating roller; The upper rotating roller and the lower rotating roller are arranged to be spaced apart from the upper brush by a predetermined distance along the conveying direction of the cable being conveyed and are engaged with each other to apply a liquid lubricant to the lower outer surface of the cable being conveyed, And a lower brush 152 disposed between the plurality of lower rotating rollers.

A first support block 131 connected to one end of the upper rotation roller 130 to support one end thereof; A second support block 132 connected to the other end of the upper rotation roller facing the first support block and supporting the other end thereof; A first rod portion 133 which is vertically penetrated through the first support block and fixed to the base; A second rod portion 134 vertically penetrating the second support block and fixed to the base; A block fixing plate 135 mounted on the upper surfaces of the first and second support blocks in a state of passing through the first and second rod portions and moving integrally with the first and second support blocks along the longitudinal direction of the first and second rod portions; A support plate 136 fixed to the upper end of the first and second rods at a predetermined distance from the block fixing plate on the vertical upper portion of the block fixing plate; And a screw bar (137) which penetrates the support plate in a threaded manner and has a lower end connected to the block fixing plate and moves the block fixing plate in the vertical direction in accordance with the rotation in accordance with the screwing with the support plate .

The discharge block 140 is formed in a block shape of a hollow tetrahedron corresponding to the cross-sectional shape of the rotary brush, and has a plurality of through holes (not shown) on the bottom surface thereof so as to uniformly drop a liquid lubricant, (Not shown).

A tank portion connected to the discharge block by a hose to supply a liquid lubricant to the discharge block; A pumping section for pumping the liquid lubricant supplied from the discharge block to the tank section at a predetermined pressure; And a controller for controlling the pumping pressure of the pumping part.

The lower rotating roller 120 may have a plurality of lower cutout grooves 120a cut along the circumferential direction in which the lower rotating roller 120 rotates so that the lower portion of the cable is inserted, The rotary roller 130 may have a plurality of upper incision grooves 130a corresponding to the lower incision grooves in the longitudinal direction thereof along the circumferential direction in which the upper portion of the rotating cable 130 is inserted .

The present invention is advantageous in that it is possible to easily adjust the structure of the rolling means for guiding the cable in correspondence with the diameter of the cable or the movement of the cable under installation so that the lubricant can be stably applied to the cable installed in the ground by external force .

Further, the present invention also shows an advantage that the application of the lubricant to the outer surface of the cable can be stably performed by controlling the discharge pressure of the discharge block by adjusting the pumping pressure of the pumping part through the controller.

FIG. 1 is an exemplary view schematically showing a ground state in which a cable is installed, FIG.
2 is a perspective view showing a lubricant applying device for a cable according to the present invention,
[Fig. 3] is a drawing showing a part of the configuration in Fig. 2,
4 is a side sectional view of Fig. 2, Fig.
5 is an explanatory diagram of a usage state shown by extracting a part of the configuration of FIG. 2,
FIG. 6 is an enlarged view of a discharge block according to the present invention. FIG.

Hereinafter, the present invention will be described in detail with reference to the drawings.

Fig. 1 shows an exemplary diagram schematically showing a ground state in which a cable is installed. Referring to FIG. 1, a lubricant applying device for a cable according to the present invention may be disposed around the first manhole 10. In this case, an installation device (not shown) is disposed around the second manhole 20 communicating with the first manhole 10 through the pipeline 30. The laying apparatus pulls a cable entering the first manhole (10) through a string in the pipeline (30) to the second manhole (20) portion.

As a result, the cables that enter the first manhole 10 are moved back and forth by the external force received from the installation device.

The lubricant applying device of the cable according to the present invention is configured to smoothly apply the lubricant to the outer surface of the cable despite the external force received by the tip of the cable from the installation device.

[Figure 2] is a perspective view showing an apparatus for applying a lubricant to a cable according to the present invention, [Figure 3] is a view showing a part of the configuration in Figure 2, and [Figure 4] Fig.

2 to 4, the present invention is an apparatus for applying a lubricant to a surface of a cable C while a cable C is installed and moving along its longitudinal direction, The first supporting block 131, the second supporting block 132, the first rod 133, the second rod 134, the block rotating plate 130, the upper rotating roller 130, the first supporting block 131, the second supporting block 132, A support plate 136, a threaded rod 137, a discharge block 140, and a rotary brush 150. The support plate 136,

The base 110 is preferably provided with respective base sidewalls 111 and 112 as shown in FIG. 2 as the ends of the body are bent upwardly from a plate-shaped body.

It is preferable that a plurality of lower rotating rollers 120 are provided along the longitudinal direction of the base 110 as shown in FIG. 2 to FIG. 4.

The lower rotating roller 120 is mounted on the upper surface of the base 110 and has both ends thereof connected to the respective base sidewalls 111 and 112 to rotate in place and to guide the lower portion of the cable C being conveyed according to the driving force of the external lay- do.

Here, since the cable C passing through the present invention is moved by the driving force of the installation device, the lower rotation roller 120 performs the in-situ rotation to guide the movement of the cable C responsive to the movement of the cable C without active rotation.

Meanwhile, the lower rotating roller 120 preferably has a plurality of lower cutout grooves 120a cut along a circumferential direction in which the lower rotating roller 120 rotates in order to fit the lower portion of the cable C being conveyed, .

The upper rotating roller 130 guides the upper portion of the cable C being conveyed while rotating in cooperation with the lower rotating roller 120 while being disposed on the lower rotating roller 120.

In this case, the upper rotating roller 130 is rotated in the same manner as the lower rotating roller 120 so as to passively guide the movement of the cable C without active rotational movement.

On the other hand, the upper rotating roller 130 preferably has an upper incision groove 130a, which is cut at a predetermined depth along the circumferential direction in which the upper rotating roller 130 is rotated so as to fit the upper portion of the cable C being conveyed, Pluralities corresponding to the grooves 120a are formed.

The first support block 131 is connected to one end of the upper rotation roller 130 to support one end of the upper support roller 131 and the second support block 132 is configured to support one end of the upper rotation roller 130, And is connected to the other end of the roller 130 to support the other end.

The first rod portion 133 is fixed to the base side wall 111 through the first support block 131 in the vertical direction and the second rod portion 134 is fixed to the second support block 132 in the up and down direction And is fixed to the base sidewall 112.

The block fixing plate 135 is seated on the upper surfaces of the first and second support blocks 131 and 132 while passing through the first and second rod portions 133 and 134 and the longitudinal direction of the first and second rod portions 133 and 134 Thereby moving integrally with the first and second support blocks 131 and 132.

The support plate 136 is fixed to the upper portion of the first and second rod portions 133 and 134 with a predetermined distance from the block fixing plate 135 on the vertical upper portion of the block fixing plate 135.

Further, the screw rod 137 penetrates the support plate 136 in a threaded manner, and the lower end of the screw rod 137 is connected to the block fixing plate 135. Here, the screw rod 137 moves the block fixing plate 135 in the vertical direction by the rotation in accordance with the screwing with the support plate 136.

As a result, the upper rotation roller 130, the first and second support blocks 131 and 132, and the block fixing plate 135 are integrally fixed to the support plate 136 in a clockwise / counterclockwise direction of the screw rod 137 To move up and down along the first and second rod portions 133 and 134.

The discharge block 140 is disposed between the plurality of upper rotating rollers 130 to drop the liquid lubricant in the downward direction. To this end, the discharge block 140 is connected to a tank portion (not shown) containing a lubricant through the hose 210 and is supplied with lubricant from the tank portion through the hose 210.

The rotary brush 150 is disposed at a vertically lower portion of the discharge block 140 so that the lubricant dropped from the discharge block 140 falls on the outer surface of the discharge block 140. As the rotary brush 150 rotates at the present position, Is applied to the surface of the cable (C) being conveyed.

Here, the rotary brush 150 may be composed of an upper brush 151 and a lower brush 152.

The upper brush 151 is disposed between the upper rotating rollers 130 as shown in FIG. 4, so that the upper brush 151 is engaged with the upper rotating roller 130 and the lower rotating roller 120, Apply a liquid lubricant to the outer surface.

The lower brush 152 is disposed between the upper rotating roller 130 and the lower rotating roller 120 to be spaced apart from the upper brush 151 by a predetermined distance along the conveying direction of the cable C being conveyed, 130, a liquid lubricant is applied to the lower outer surface of the cable C being engaged between the upper rotating roller 130 and the lower rotating roller 120.

The tank part (not shown) is connected to the discharge block 140 by a hose 210 to supply a liquid lubricant to the discharge block 140. A pumping part (not shown) The supplied liquid lubricant is pumped to a predetermined pressure.

Here, the controller (not shown) can adjust the amount of the lubricant falling downward of the discharge block 140 by controlling the pumping pressure of the pumping portion.

[Fig. 5] is a state diagram of use shown by extracting a part of the configuration of [Fig. 2]. 5 (a) is a plan view of the upper rotation roller 130, the first and second support blocks 131 and 132, the block fixing plate 135, In the vertical direction along the first and second rod portions 133 and 134 as a whole.

5 (b) is a cross-sectional view of the upper rotation roller 130, the first and second support blocks 131 and 132, the block fixing plate 135 ) Are moved integrally along the first and second rod portions 133 and 134 in the vertical downward direction.

That is, the distance between each of the upper rotating rollers 130 and the lower rotating rollers 120 provided along the longitudinal direction of the base 110 is independently adjusted through the respective screw rods 137, The incoming cable C can be stably moved despite the external force pulled by the installation device installed around the other manhole. The application of the lubricant to the outer surface of the cable C that is stably moving can be stably performed.

FIG. 6 is a view showing a discharge block according to the present invention in an enlarged and separated manner. FIG. Referring to FIG. 6, the discharge block 140 is formed in a block shape of a hollow tetrahedron corresponding to the cross-sectional shape of the rotary brush 150 disposed at the lower portion of the discharge block 140 itself. The discharge block 140 preferably has a plurality of through holes 141 formed in the bottom surface thereof to uniformly drop the liquid lubricant filling the inside of the discharge block 140 into the rotating brush 150 located below the discharge block 140 .

On the upper surface of the discharge block 140, an injection hole 142 may be formed in which one end of the hose 210 communicating with the tank portion is inserted.

10: 1st manhole
20: Second manhole
30: channel
110: Base
111, 112: base side wall
120: Lower rotating roller
120a: lower incision groove
130: upper rotating roller
130a: upper incision groove
131: first support block
132: second supporting block
133: first rod section
134: second rod section
135: Block fixing plate
136: Support plate
137: Nasaebong
140: Discharge block
141: Through hole
142: Injection ball
150: Rotating brush
151: Upper brush
152: Lower brush
161: third support block
162: fourth support block
163: fifth support block
164: sixth support block
210: Hose
C: Cable

Claims (6)

An apparatus for applying a lubricant to a surface of a cable while the cable is installed and moving along its longitudinal direction,
A base 110;
A plurality of lower rotating rollers (120) mounted on the upper surface of the base to rotate in place and to support a lower portion of the cable being conveyed by an external force;
A plurality of upper rotating rollers (130) arranged in an upper portion of the lower rotating roller and supporting an upper portion of the cable being transported while being rotated cooperatively with the lower rotating roller;
A discharge block (140) disposed between the plurality of upper rotating rollers to drop a liquid lubricant in a downward direction;
A lubricant which is attached to the outer surface of the discharge block and rotates in a state of being disposed at a vertically lower portion of the discharge block corresponding to the space between the plurality of upper rotating rollers so that the lubricant falling from the discharge block falls on its outer surface, An upper brush 151 which is applied to the upper outer surface of the cable being engaged with the upper rotating roller and the lower rotating roller, A liquid lubricant adhered to an outer surface of the discharge block is rotated between the upper rotating roller and the lower rotating roller to be applied to the lower outer surface of the cable being transported A rotating brush 150 having a lower brush 152 for rotating the rotary brush 150;
And a lubricant applying device for the cable.
delete The method according to claim 1,
A first support block 131 connected to one end of the upper rotation roller 130 to support one end thereof;
A second support block 132 connected to the other end of the upper rotation roller facing the first support block and supporting the other end thereof;
A first rod portion 133 passing through the first support block in a vertical direction and fixed to the base;
A second rod portion 134 vertically penetrating the second support block and fixed to the base;
And a block fixing plate which is seated on the upper surfaces of the first and second support blocks while passing through the first and second rod portions and which moves integrally with the first and second support blocks along the longitudinal direction of the first and second rod portions 135);
A support plate 136 fixed to an upper end of the first and second rods at a predetermined distance from the block fixing plate on a vertical upper portion of the block fixing plate;
A screw rod 137 which passes through the support plate in a screwed manner and has a lower end connected to the block fixture plate and moves the block fixture plate in the vertical direction in accordance with the rotation of the support plate in accordance with the screwing;
Further comprising: a lubricant applying device for applying a lubricant to the cable.
The method of claim 3,
The discharge block 140 is formed in a block shape of a hollow tetrahedron corresponding to the cross-sectional shape of the rotary brush, and has a plurality of through holes (not shown) formed on the bottom surface thereof so as to uniformly drop a liquid lubricant, And a hole (141) is formed in the hole (141).
The method of claim 4,
A tank connected to the discharge block by a hose to supply a liquid lubricant to the discharge block;
A pumping section for pumping a liquid lubricant supplied from the discharge block to the tank section at a predetermined pressure;
A controller for controlling the pumping pressure of the pumping portion;
Further comprising: a lubricant applying device for applying a lubricant to the cable.
The method of claim 5,
The lower rotating roller 120 has a plurality of lower cutout grooves 120a cut along a circumferential direction in which the lower rotating roller 120 rotates so that a lower portion of the cable is inserted,
The upper rotating roller 130 is formed with a plurality of upper cutting grooves 130a corresponding to the lower cutting grooves in the longitudinal direction thereof along the circumferential direction in which the upper rotating roller 130 rotates in order to fit the upper portion of the cable And a lubricant applying device for the cable.

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